Change in Migratory Behavior as a Possible Explanation for Burrowing Owl Population Declines in Northern Latitudes

Recent observed changes in bird distributions provide an unprecedented opportunity to gain a deeper understanding of the processes that influence species' persistence. By modelling presence-absence data from the North American Breeding Bird Survey, we found evidence that the breeding range of t...

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Main Author: Macias-Duarte, Alberto
Other Authors: Conway, Courtney J.
Language:en
Published: The University of Arizona. 2011
Subjects:
Online Access:http://hdl.handle.net/10150/145395
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spelling ndltd-arizona.edu-oai-arizona.openrepository.com-10150-1453952015-10-23T04:27:00Z Change in Migratory Behavior as a Possible Explanation for Burrowing Owl Population Declines in Northern Latitudes Macias-Duarte, Alberto Conway, Courtney J. Culver, Melanie Holroyd, Geoffrey L. Athene cunicularia Avian migration Burrowing owl Dispersal Microsatellites Stable isotopes Recent observed changes in bird distributions provide an unprecedented opportunity to gain a deeper understanding of the processes that influence species' persistence. By modelling presence-absence data from the North American Breeding Bird Survey, we found evidence that the breeding range of the western burrowing owl has contracted at its northern, western, and eastern boundaries since 1967. We suggest that the species' breeding distribution is also expanding southwards to former wintering grounds into northern Mexico, facilitated by the appearance of new breeding habitat created by irrigated agriculture in the arid areas of southwestern United States and northwestern Mexico. This dissertation explores the hypothesis that burrowing owls from northern migratory populations have become resident breeders in areas of northwestern Mexico that were formerly used only by migratory owls during winter, contributing to both population declines near the northern extent of the species' breeding range and population increases in the southern half of the species' range. We used novel DNA microsatellite markers to test patterns of gene flow predicted by this migration-mediated range-shift hypothesis. We genotyped 1,560 owls from 36 study locations in Canada, Mexico, and the United States. Analyses of molecular variance provided evidence that burrowing owl populations in both northwestern Mexico and Canada are genetically different from the rest of the populations in the breeding range, lending some support to the migration-mediated range-shift hypothesis. We found evidence of subtle genetic differentiation associated with subtropical irrigated agricultural areas in southern Sonora and Sinaloa, demonstrating that land use can produce location-specific population dynamics leading to genetic structure even in the absence of dispersal barriers. We also used stable isotopes 2/H, 13/C, and 15/N in feathers to test philopatry and breeding dispersal patterns predicted by this migration-mediated range-shift hypothesis. Burrowing owl populations near the northern edge of the species' breeding range had a high proportion of immigrants compared to interior populations, while other populations had high levels of philopatry. Stable isotopes also provided evidence of breeding dispersal events from Canadian populations to northwestern Mexico in support of the migration-mediated range-shift hypothesis, but similar isotope signatures in nestling feathers between these two regions prevent stronger inferences. 2011 Electronic Dissertation text http://hdl.handle.net/10150/145395 752261334 11466 en Copyright © is held by the author. Digital access to this material is made possible by the University Libraries, University of Arizona. Further transmission, reproduction or presentation (such as public display or performance) of protected items is prohibited except with permission of the author. The University of Arizona.
collection NDLTD
language en
sources NDLTD
topic Athene cunicularia
Avian migration
Burrowing owl
Dispersal
Microsatellites
Stable isotopes
spellingShingle Athene cunicularia
Avian migration
Burrowing owl
Dispersal
Microsatellites
Stable isotopes
Macias-Duarte, Alberto
Change in Migratory Behavior as a Possible Explanation for Burrowing Owl Population Declines in Northern Latitudes
description Recent observed changes in bird distributions provide an unprecedented opportunity to gain a deeper understanding of the processes that influence species' persistence. By modelling presence-absence data from the North American Breeding Bird Survey, we found evidence that the breeding range of the western burrowing owl has contracted at its northern, western, and eastern boundaries since 1967. We suggest that the species' breeding distribution is also expanding southwards to former wintering grounds into northern Mexico, facilitated by the appearance of new breeding habitat created by irrigated agriculture in the arid areas of southwestern United States and northwestern Mexico. This dissertation explores the hypothesis that burrowing owls from northern migratory populations have become resident breeders in areas of northwestern Mexico that were formerly used only by migratory owls during winter, contributing to both population declines near the northern extent of the species' breeding range and population increases in the southern half of the species' range. We used novel DNA microsatellite markers to test patterns of gene flow predicted by this migration-mediated range-shift hypothesis. We genotyped 1,560 owls from 36 study locations in Canada, Mexico, and the United States. Analyses of molecular variance provided evidence that burrowing owl populations in both northwestern Mexico and Canada are genetically different from the rest of the populations in the breeding range, lending some support to the migration-mediated range-shift hypothesis. We found evidence of subtle genetic differentiation associated with subtropical irrigated agricultural areas in southern Sonora and Sinaloa, demonstrating that land use can produce location-specific population dynamics leading to genetic structure even in the absence of dispersal barriers. We also used stable isotopes 2/H, 13/C, and 15/N in feathers to test philopatry and breeding dispersal patterns predicted by this migration-mediated range-shift hypothesis. Burrowing owl populations near the northern edge of the species' breeding range had a high proportion of immigrants compared to interior populations, while other populations had high levels of philopatry. Stable isotopes also provided evidence of breeding dispersal events from Canadian populations to northwestern Mexico in support of the migration-mediated range-shift hypothesis, but similar isotope signatures in nestling feathers between these two regions prevent stronger inferences.
author2 Conway, Courtney J.
author_facet Conway, Courtney J.
Macias-Duarte, Alberto
author Macias-Duarte, Alberto
author_sort Macias-Duarte, Alberto
title Change in Migratory Behavior as a Possible Explanation for Burrowing Owl Population Declines in Northern Latitudes
title_short Change in Migratory Behavior as a Possible Explanation for Burrowing Owl Population Declines in Northern Latitudes
title_full Change in Migratory Behavior as a Possible Explanation for Burrowing Owl Population Declines in Northern Latitudes
title_fullStr Change in Migratory Behavior as a Possible Explanation for Burrowing Owl Population Declines in Northern Latitudes
title_full_unstemmed Change in Migratory Behavior as a Possible Explanation for Burrowing Owl Population Declines in Northern Latitudes
title_sort change in migratory behavior as a possible explanation for burrowing owl population declines in northern latitudes
publisher The University of Arizona.
publishDate 2011
url http://hdl.handle.net/10150/145395
work_keys_str_mv AT maciasduartealberto changeinmigratorybehaviorasapossibleexplanationforburrowingowlpopulationdeclinesinnorthernlatitudes
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